Chlorpyrifos(CPF) antibody/antigen (BSA/OVA/KLH conjugated hapten)

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anti-Chlorpyrifos(CPF) antibody and Carrier-coupled antigen/immunogen (hapten-carrier conjugates)

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Product information

Size： 1mg | 10mg | 100mg

Product Description

BSA-Chlorpyrifos(CPF)

OVA-Chlorpyrifos(CPF)

Anti-Chlorpyrifos(CPF) mouse monoclonal antibody

Anti-Chlorpyrifos(CPF) human monoclonal antibody

Reference

Validation Data

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Biomarker Information

1. Chlorpyrifos (CPF): A Comprehensive Examination of Its Properties and Role in Pest Control

Chlorpyrifos (CPF), a prominent member of the organophosphorus compound family, stands as a formidable insecticide and acaricide utilized extensively in the realm of agriculture. In this discussion, we delve into the multifaceted facets of CPF, elucidating its chemical properties, mechanism of action, and pivotal role in the field of pesticides.

CPF is classified as an organophosphate, a class of chemicals well-regarded for their potent insecticidal and acaricidal properties. As a compound bearing this classification, CPF is chiefly employed for the control and management of a wide spectrum of pests, including insects and mites that pose significant threats to crops. Its efficacy lies in its ability to disrupt neural transmission in the nervous systems of targeted pests, a function that stems from its inhibition of acetylcholinesterase, a critical enzyme facilitating proper neural signaling. The outcome of this disruption is paralysis and eventual mortality among the afflicted pests, rendering CPF a highly effective pest control agent.

2. The Role of Chlorpyrifos (CPF) in Pesticides: Significance and Utility

Within the sphere of pesticides, CPF assumes an indispensable role owing to its remarkable versatility and enduring residual effects. Its widespread adoption can be attributed to several key factors:

- Broad-Spectrum Activity: CPF exhibits an impressively broad range of activity against various agricultural and horticultural pests. This versatility enables its application in diverse crop types, including fruits, vegetables, and cereals, making it an invaluable tool for pest management.

- Long-Lasting Residual Effects: CPF is known for its persistence in the environment, providing prolonged protection against pest infestations. Its extended residual activity ensures a sustained shield against pest damage, reducing the need for frequent reapplication.

- High Efficacy: CPF's efficacy in controlling a multitude of pests is well-documented. It excels in managing some of the most notorious agricultural pests, contributing significantly to crop protection and yield enhancement.

- Versatile Application Methods: CPF can be applied using various methods, including foliar sprays, soil drenching, and seed treatments, further enhancing its adaptability to different agricultural practices.

While CPF has proven to be a valuable ally in pest control, its usage has also raised concerns related to environmental impact and human health. As such, precise measurement and monitoring of CPF have become essential practices in various domains, underlining the necessity of understanding why it is imperative to measure CPF.

3. The Imperative for Chlorpyrifos (CPF) Measurement: A Multifaceted Perspective

The significance of measuring Chlorpyrifos (CPF) extends across several critical domains, encompassing both environmental and human health considerations. The following facets delineate the imperative nature of CPF measurement:

- Environmental Accountability: CPF, renowned for its environmental persistence, necessitates continuous monitoring to assess its presence in key ecological components such as soil, water, and non-target organisms. Understanding its environmental distribution enables the evaluation of potential risks to ecosystems and wildlife.

- Regulatory Compliance: Regulatory bodies worldwide establish Maximum Residue Limits (MRLs) for CPF in various food products and environmental matrices. The precise measurement of CPF is paramount to ensure adherence to these limits, preventing the introduction of harmful residues into crops and associated products, thus maintaining food safety standards.

- Preservation of Human Health: Even at low levels, CPF exposure can pose health risks to humans. Monitoring CPF concentrations in food products and the environment plays a pivotal role in safeguarding public health. It allows for the identification of potential routes of exposure and timely intervention to mitigate risks.

- Optimized Pest Control: The effectiveness of CPF-based pest control strategies hinges on accurate measurement. Monitoring CPF levels facilitates the assessment of pesticide efficacy, enabling farmers and agricultural professionals to fine-tune CPF applications. This optimization ensures effective pest control while minimizing pesticide overuse, which can lead to adverse consequences.

- Advancement in Research: Researchers rely on CPF measurements to gain insights into its behavior in the environment, degradation patterns, and the exploration of potential alternatives. Such research contributes to the development of safer and more sustainable pest management practices, aiding in the evolution of the field.

In summary, the measurement of Chlorpyrifos (CPF) emerges as an indispensable tool for environmental protection, regulatory compliance, public health preservation, pest control optimization, and scientific advancement. Robust measurement techniques, often leveraging anti-small molecule antibodies and competitive antigens, are pivotal in achieving these objectives effectively and efficiently. Monitoring CPF ensures that its use in pest management is not only effective but also safe and sustainable, fostering a balance between agricultural productivity and environmental stewardship.

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